Advanced nanoporous material–based QCM devices: A new horizon of interfacial mass sensing technology
Mass interfacial processes have been considered as one of the crucial factors supporting
fundamental research. Due to the low cost and conceptual simplicity, significant …
fundamental research. Due to the low cost and conceptual simplicity, significant …
Hot-electron-mediated surface chemistry: toward electronic control of catalytic activity
Conspectus Energy dissipation at surfaces and interfaces is mediated by excitation of
elementary processes, including phonons and electronic excitation, once external energy is …
elementary processes, including phonons and electronic excitation, once external energy is …
Enhanced Surface Plasmon Effect of Ag/TiO2 Nanodiodes on Internal Photoemission
Over the last several decades, innovative light-harvesting devices have evolved to achieve
high-efficiency solar energy transfer. Understanding the mechanism of plasmon resonance …
high-efficiency solar energy transfer. Understanding the mechanism of plasmon resonance …
Operando Surface Characterization on Catalytic and Energy Materials from Single Crystals to Nanoparticles
Modern surface science faces two major challenges, a materials gap and a pressure gap.
While studies on single crystal surface in ultrahigh vacuum have uncovered the atomic and …
While studies on single crystal surface in ultrahigh vacuum have uncovered the atomic and …
Surface chemistry of hot electron and metal-oxide interfaces
Fundamental mechanisms for energy conversion and dissipation on surfaces and at
interfaces have been significant issues in the community of surface science. Electronic …
interfaces have been significant issues in the community of surface science. Electronic …
Electronic control of hot electron transport using modified Schottky barriers in metal–semiconductor nanodiodes
Hot electron flux, generated by both incident light energy and the heat of the catalytic
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
The promotion effect of hydrogen spillover on CH4 reforming with CO2 over Rh/MCF catalysts
L Qian, W Cai, L Zhang, L Ye, J Li, M Tang… - Applied Catalysis B …, 2015 - Elsevier
The mesocellular silica foams (MCF) supported rhodium catalysts, prepared by wetness
impregnation method, were tested in CH 4 reforming with CO 2. Hydrogen temperature …
impregnation method, were tested in CH 4 reforming with CO 2. Hydrogen temperature …
Polymeric Micelle Assembly for the Direct Synthesis of Platinum-Decorated Mesoporous TiO2 toward Highly Selective Sensing of Acetaldehyde
BP Bastakoti, NL Torad… - ACS applied materials & …, 2014 - ACS Publications
Platinum-decorated mesoporous TiO2 is synthesized by the self-assembly of polymeric
micelles of an asymmetric triblock copolymer with three chemically distinct units in an acidic …
micelles of an asymmetric triblock copolymer with three chemically distinct units in an acidic …
The nature of hot electrons generated by exothermic catalytic reactions
II Nedrygailov, JY Park - Chemical Physics Letters, 2016 - Elsevier
We review recent progress in studies of the nature of hot electrons generated in metal
nanoparticles and thin films on oxide supports and their role in heterogeneous catalysis. We …
nanoparticles and thin films on oxide supports and their role in heterogeneous catalysis. We …
Manipulation of hot electron flow on plasmonic nanodiodes fabricated by nanosphere lithography
Energy conversion to generate hot electrons through the excitation of localized surface
plasmon resonance (LSPR) in metallic nanostructures is an emerging strategy in …
plasmon resonance (LSPR) in metallic nanostructures is an emerging strategy in …